CN113623984A - Drying device is used in slippers production - Google Patents

Abstract

The application discloses a drying device for slipper production, which comprises a drying mechanism and a turnover mechanism; the drying mechanism comprises a drying box, a heat supply assembly communicated with an inner cavity of the drying box is arranged at the upper end of the drying box, the drying mechanism further comprises a conveying assembly, the conveying assembly comprises a frame and rotating rollers rotating at two ends of the frame, conveying belts penetrating through two ends of the drying box are arranged between the rotating rollers, and material containing frames are placed on the conveying belts; tilting mechanism is including setting up in the installation section of thick bamboo of stoving mechanism one end, the rotation of the circumferential direction along the installation section of thick bamboo in the installation section of thick bamboo is provided with a rotation section of thick bamboo, the outer wall of installation section of thick bamboo is provided with and is used for driving a rotation section of thick bamboo pivoted driving piece, be provided with inside hollow connecting box in the rotation section of thick bamboo, it is provided with reserve frame to slide in the connecting box, be provided with on the connecting box and be used for driving the gliding power supply of flourishing material frame and reserve frame. This application can improve the stoving effect to the raw materials.

Description

Drying device is used in slippers production

Technical Field

The application relates to the technical field of slipper production, in particular to a drying device for slipper production.

Background

At present, the slippers are very common in life and have the significance of common use. Most slippers are produced in a mode of injection molding of plastic master batches at high temperature and the like in production. And some raw materials are used for production after being cleaned before use.

Chinese utility model patent document with publication number CN207132697U discloses an air drying device for slipper raw materials in the related art, including the casing, the feed inlet has been seted up to the upper end of casing, and the discharge gate has been seted up to the lower extreme lateral wall, and the hair-dryer is still installed to the upper end of casing, and inside the hair-dryer connected in the casing, the raw materials weathered in the casing, and moisture can be followed the filter screen and down flowed.

Aiming at the related technologies, the inventor thinks that the raw material masterbatch is dried in the shell, the drying speed of the raw material masterbatch is slow, the air drying effect is poor, and the raw material may contain more water, which is easy to affect the subsequent process.

Disclosure of Invention

In order to improve the stoving effect to the raw materials, this application provides a drying device is used in slippers production.

The application provides a drying device is used in slippers production adopts following technical scheme:

a drying device for slipper production comprises a drying mechanism and a turnover mechanism; the drying mechanism comprises a drying box, a heat supply assembly communicated with an inner cavity of the drying box is arranged at the upper end of the drying box, the drying mechanism further comprises a conveying assembly, the conveying assembly comprises a frame and rotating rollers rotating at two ends of the frame, conveying belts penetrating through two ends of the drying box are arranged between the rotating rollers, and material containing frames are placed on the conveying belts;

the turnover mechanism comprises an installation barrel arranged at one end of the drying mechanism, a rotating barrel is rotatably arranged in the installation barrel along the circumferential direction of the installation barrel, a driving piece for driving the rotating barrel to rotate is arranged on the outer wall of the installation barrel, a connecting box with a hollow inner part is arranged in the rotating barrel, the opening of the connecting box faces the drying mechanism, a standby frame is arranged in the connecting box in a sliding mode, the sliding direction of the standby frame is parallel to the moving direction of the conveying belt, a space for the material containing frame to slide horizontally is reserved between the standby frame and the connecting box, and a power source for driving the material containing frame and the standby frame to slide is arranged on the connecting box; guide structures are arranged between the material containing frame and the connecting box, between the standby frame and the connecting box and used for limiting the separation of the inner walls of the material containing frame and the connecting box and the separation of the inner walls of the standby frame and the connecting box when the rotating cylinder rotates.

By adopting the technical scheme, the raw material master batches are placed in the material containing frame and are sent into the drying box through the conveying belt, the heat supply assembly generates hot air in the drying box to dry the raw material, the conveying belt can drive the material containing frame to move out from one side of the drying box, a space is reserved between the standby frame and the connecting box for the material containing frame to slide in, after one end of the material containing frame is sent into the connecting box through the conveying belt, the material containing frame can be driven by a power source to slide into the connecting box, then the rotating cylinder is driven by a driving piece to rotate so as to drive the connecting box to rotate, after the connecting box is rotated for 180 degrees, the raw material in the material containing frame can be poured into the standby frame, the raw material at the bottom in the material containing frame is changed into a surface, then the standby frame is driven by the power source to slide to the drying box, and the standby frame can be conveyed into the drying box to be dried by the reverse rotation of the conveying belt, thereby improving the drying effect of the raw materials.

Optionally, a frame is further disposed between the drying mechanism and the turnover mechanism, a hollow cylinder is disposed on the frame, a gap is formed in the upper end of the hollow cylinder, a rotating rod is rotatably disposed in the hollow cylinder, the axis direction of the rotating rod is perpendicular to the movement direction of the conveyor belt, mounting blocks are coaxially disposed on the side wall of the rotating rod, the mounting blocks are disposed at intervals along the length direction of the rotating rod, knocking rods are slidably connected to the side walls of the mounting blocks, the knocking rods slide along the radial direction of the mounting blocks, and first springs for driving the knocking rods to extend out of the gap are disposed on the mounting blocks; hollow section of thick bamboo is including letting position portion and butt portion, let the position be located the one side of being close to stoving mechanism, just let leave the clearance between the lateral wall of position portion and installation piece, be provided with the linkage between bull stick and the adjacent live-rollers, work as the dwang can not rotate when the conveyer belt moves to tilting mechanism, work as when the conveyer belt moves to the direction of keeping away from tilting mechanism, the bull stick can rotate with the live-rollers is synchronous.

Through adopting above-mentioned technical scheme, when the conveyer belt moved to drying mechanism, also be the process of reserve frame or flourishing material frame stoving mechanism motion this moment, can drive the bull stick rotation under linkage effect, and then drive the installation piece and rotate, when beating the pole and moving to the position of breach, first spring can drive the tip of beating the pole and extend the breach, when reserve frame or flourishing material frame moved to the top of breach, beat the pole and can beat in the bottom surface of flourishing material frame or reserve frame, produce the vibration in its bottom surface, and then make the more even that the raw materials master batch in flourishing material frame or the reserve frame can distribute, when the installation piece moved after that, the tip of beating the pole can butt on the lateral wall of letting the position portion, thereby will beat the pole and press the withdrawal in the installation piece, wait for next pop-up.

Optionally, a convex column is arranged on each of the sides of the frame, which are away from each other, the rotating rod penetrates through the side wall of the frame and is rotatably connected to the convex column, two ends of the rotating rod are provided with parts extending out of the end face of the convex column, the linkage member comprises a synchronizing wheel coaxially arranged on the outer wall of the rotating roller and a driving wheel rotatably arranged on the outer wall of the convex column, a linkage belt is arranged between the driving wheel and the synchronizing wheel, a cavity is formed in the driving wheel, a limiting block is uniformly arranged on the inner wall of the cavity, the limiting block comprises a butting face extending in the radial direction of the driving wheel and an inclined face, one end of the inclined face is connected to one end, away from the inner wall of the cavity, of the butting face, and the other end of the inclined face is connected to the inner wall of the cavity; the end part of the rotating rod is provided with a mounting groove, a touch rod is connected in the mounting groove in a sliding mode, a second spring is arranged in the mounting groove, and when the conveying belt moves towards the turnover mechanism, the touch rod can move on the inclined plane.

By adopting the technical scheme, when the conveying belt rotates towards the turnover mechanism, the side wall of the knocking rod can abut against the side wall of the notch, so that the rotating rod cannot rotate, and when the driving wheel rotates, the end part of the abutting rod can move on the inclined surface and is compressed in the mounting groove by the inclined surface; when the conveyer belt moves to the direction of drying mechanism, the lateral wall of contact rod can the butt on the butt face to make the driving wheel can drive the bull stick and rotate, thereby drive the rotation of installation piece, make to strike the pole and can be continuous strike the bottom surface of flourishing material frame or reserve frame.

Optionally, the upper end of the positioning portion is rotatably provided with a guide roller.

Through adopting above-mentioned technical scheme, the guide roll makes things convenient for flourishing material frame or reserve frame to move from the frame.

Optionally, the upper side and the lower side of the connecting box are both provided with vertical plates, and the upper side and the lower side of the connecting box are both provided with two vertical plates, the power source comprises a power gear which is rotationally connected to one side of the vertical plate, the surface of the connecting box is provided with a slot, the power gear is provided with a part which penetrates through the open slot and extends into the connecting box, the power source also comprises racks arranged at two sides of the standby frame and the material containing frame, the rack can be meshed with the power gear, round wheels are rotatably arranged on the sides of the vertical plates which are far away from each other, the circular wheels are in one-to-one correspondence with the power gears, the circular wheels are coaxially fixed with convex shafts and are connected with the power gears through the convex shafts, the vertical plate is provided with a synchronous belt which connects the round wheels together, the power source further comprises a power motor which is arranged on the surface of the connecting box, the power motor and the vertical plate correspond to each other one by one, and an output shaft of the power motor is connected with one of the power gears.

Through adopting above-mentioned technical scheme, can drive power gear under power motor's effect and rotate to drive corresponding round wheel and rotate, can rotate with the power gear of drive on the same riser under the effect of hold-in range, back in the one end entering junction box of reserve frame or material containing frame, power gear rotates and can slide in the junction box with the reserve frame of drive or material containing frame.

Optionally, the guide structure is including setting up in the dovetail strip of the bottom surface of material preparing frame and material containing frame, offer on the connecting box inner wall and be used for supplying the gliding dovetail of dovetail strip.

Through adopting above-mentioned technical scheme, under the effect of dovetail strip and dovetail, can be so that spare frame or the condition that can not take place to break away from when flourishing material frame is located the connecting box.

Optionally, the upper surface of the conveying belt is provided with two positioning rods, the positioning rods are parallel to each other, and the material containing frame or the material preparing frame can be abutted between the two positioning rods. .

Through adopting above-mentioned technical scheme, reserve frame or material containing frame can be spacing between two locating levers to make the dovetail more easily peg graft in the dovetail.

Optionally, the both ends outer wall of a rotation section of thick bamboo is provided with and encircles protrudingly, installation section of thick bamboo inner wall is provided with and is used for supplying to encircle protruding pivoted rotating groove, the driving piece including coaxial set up in the ring tooth of rotation section of thick bamboo outer wall, the driving piece still including set up in the accommodate motor of installation section of thick bamboo lateral wall, the last meshing gear that is provided with of accommodate motor, the outer wall of an installation section of thick bamboo has been seted up and has been lacked the groove, the meshing gear passes and lacks groove and ring tooth meshing.

Through adopting above-mentioned technical scheme, the rotary drum passes through the protruding rotation of ring and connects in the rotary tank to rotate and connect on the installation section of thick bamboo, adjust motor drive meshing gear and rotate, can be so that rotate a section of thick bamboo rotation through ring tooth drive.

In summary, the present application includes at least one of the following benefits:

1. the raw materials in the material containing frame can be overturned and poured into the standby frame, so that the raw materials on the bottom surface are changed into the raw materials on the surface, and the drying effect is better;

2. when the standby frame or the material containing frame passes through the surface of the rack and enters the drying mechanism, the knocking rod can knock on the bottom surface of the rack, so that the raw materials can be distributed more uniformly due to the generated vibration.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is an exploded view of the flip structure in an embodiment of the present application;

FIG. 3 is a schematic structural view of a connection box in an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a rack according to an embodiment of the present application;

fig. 5 is a schematic view of the structure of the hollow cylinder and the rotary rod.

Description of reference numerals: 1. a material containing frame; 2. a drying mechanism; 201. a drying box; 202. a heat supply assembly; 203. a delivery assembly; 2031. a frame; 2032. a rotating roller; 2033. a conveyor belt; 3. a turnover mechanism; 301. mounting the cylinder; 302. a rotating cylinder; 303. a connecting box; 304. a standby frame; 4. a drive member; 5. a power source; 51. a power gear; 52. a rack; 53. a power motor; 6. a guide structure; 61. a dovetail strip; 62. a dovetail groove; 7. a frame; 8. a hollow cylinder; 81. an abutting portion; 82. a relief portion; 9. a notch; 10. a rotating rod; 11. mounting blocks; 12. a knock rod; 13. a first spring; 14. a sliding groove; 15. a linkage member; 151. a synchronizing wheel; 152. driving the wheel; 153. a linkage belt; 16. a convex column; 17. a limiting block; 171. an abutting surface; 172. an inclined surface; 18. mounting grooves; 19. a touch bar; 20. a second spring; 21. a guide roller; 22. a vertical plate; 23. grooving; 24. a round wheel; 25. a synchronous belt; 26. a protruding shaft; 27. a pressure roller; 28. positioning a rod; 29. the ring is convex; 30. a rotating tank; 31. a ring gear; 32. a meshing gear; 33. notching; 34. adjusting the motor; 35. and (4) air interface.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses drying device is used in slippers production. Referring to fig. 1, the drying apparatus includes a drying mechanism 2 and a turnover mechanism 3. Drying mechanism 2 is including drying case 201, and drying case 201 is inside hollow structure, and the last surface mounting of drying case 201 has heat supply assembly 202, and heat supply assembly 202 can be for the device that can heat the heat source such as air heater, electric fan heater, can produce higher temperature in drying case 201 under heat supply assembly 202's effect for the raw materials of drying.

Referring to fig. 1, the drying mechanism 2 further includes a conveying assembly 203, the conveying assembly 203 includes a frame 2031 and rotating rollers 2032 rotatably connected to two ends of the frame 2031, axes of the two rotating rollers 2032 are parallel to each other, and the rotating rollers 2032 can be rotatably connected through a bearing seat or the like. A conveyer belt 2033 is further connected between the two rotating rollers 2032, one of the rotating rollers 2032 is connected to a motor set (not shown in the figure) for driving the rotating rollers 2032 to rotate, and the rotating rollers 2032 can drive the conveyer belt 2033 to move. The conveying belt 2033 is provided with a material containing frame 1, and the material containing frame 1 can be used for containing the raw material master batches to be dried. The conveyor 2033 moves to feed the material containing frame 1 into the drying box 201 or convey the material containing frame 1 out of the drying box 201.

Referring to fig. 1, the turnover mechanism 3 includes an installation barrel 301 installed at one end of the drying mechanism 2, a rotation barrel 302 is rotatably installed in the installation barrel 301, and the rotation barrel 302 and the installation barrel 301 are coaxially installed. Rotating cylinder 302 is an internal hollow structure, and the opening of rotating cylinder 302 faces drying mechanism 2, still installs connecting box 303 in rotating cylinder 302, and the outer wall of installation cylinder 301 is installed and is used for driving a driving piece 4 that rotates cylinder 302 pivoted, thereby drives connecting box 303 and rotates when rotating cylinder 302 rotates.

Referring to fig. 1 and 2, the connection box 303 has a hollow structure, and an opening of the connection box 303 faces a side of the drying mechanism 2. The connecting box 303 is connected with a spare frame 304 in a sliding manner, the structure of the spare frame 304 is the same as that of the material containing frame 1, and the sliding direction of the spare frame 304 is parallel to the feeding direction of the conveying belt 2033. After the spare frame 304 is installed in the connection box 303, a space for the material containing frame 1 to slide into the connection box 303 is left in the connection box 303. After the material containing frame 1 is placed on the upper surface of the conveying belt 2033, the material containing frame 1 can be aligned to the space in the connecting box 303, and the conveying belt 2033 can convey the material containing frame 1 into the connecting box 303 when moving.

Referring to fig. 1 and 3, the connection box 303 is further installed with a power source 5 for driving the standby frame 304 and the material containing frame 1 to slide in the connection box 303. Conveyer belt 2033 will contain the one end of material frame 1 and carry to behind the connecting box 303, can drive promptly through power supply 5 and contain material frame 1 and slide in the connecting box 303, and make and contain material frame 1 be located reserve frame 304 under, it is relative to contain material frame 1 and reserve frame 304 opening, then rotate section of thick bamboo 302 through driving piece 4 drive rotation, and turned angle is 180 degrees, thereby make and contain material frame 1 be located reserve frame 304 directly over, after rotating, the raw materials in containing material frame 1 can be poured into reserve frame 304, thereby make the raw materials that originally is located the bottom become to be located surface department, then move to the direction of drying mechanism 2 through power supply 5 drive reserve frame 304, and conveyer belt 2033 reverse motion, thereby can carry reserve frame 304 to drying box 201 in and dry.

Referring to fig. 1 and 3, a guide structure 6 is provided between the bottom surface of the spare frame 304 and the bottom surface of the material containing frame 1 in order to restrict the spare frame 304 located inside the connection box 303 or the material containing frame 1 from being separated from the inner wall of the connection box 303. The guide structure 6 comprises dovetail grooves 62 formed in the inner walls of the upper side and the lower side of the connecting box 303, the guide structure 6 further comprises dovetail strips 61 arranged on the bottom surfaces of the standby frame 304 and the material containing frame 1, and the dovetail strips 61 can slide in the dovetail grooves 62, so that the standby frame 304 or the material containing frame 1 can only slide in the connecting box 303. Furthermore, in order to facilitate the smooth sliding of the material containing frame 1 moved out by the conveyer 2033 into the connecting box 303, two positioning rods 28 parallel to each other are fixed on the upper surface of the conveyer 2033, and the positioning rods 28 are made of elastic material. The material containing frame 1 and the standby frame 304 can just abut against between the two positioning rods 28, so that when the conveying belt 2033 drives the material containing frame 1 to the direction of the installation cylinder 301, the dovetail strip 61 can be aligned to the dovetail groove 62. And when the material containing frame 1 just starts to enter the connecting box 303, the material containing frame 1 is not yet separated from the contact with the conveyer belt 2033.

Referring to fig. 1 and 2, in order to realize the rotatable connection between the installation cylinder 301 and the rotation cylinder 302, the outer walls of the two ends of the rotation cylinder 302 are coaxially fixed with annular protrusions 29, the inner walls of the two ends of the installation cylinder 301 are provided with rotating grooves 30, and the annular protrusions 29 rotate in the rotating grooves 30, so that the rotation cylinder 302 is rotatably connected to the installation cylinder 301. For ease of installation, the mounting barrel 301 may be of a half-split configuration. The driving member 4 comprises an adjusting motor 34 fixed on the outer wall of the mounting barrel 301, and an output shaft of the adjusting motor 34 is coaxially fixed with a meshing gear 32. Leave certain clearance between the outer wall of a section of thick bamboo 302 and the inner wall of an installation section of thick bamboo 301, driving piece 4 still includes the ring tooth 31 that is fixed in a coaxial rotation section of thick bamboo 302 outer wall, has still seted up scarce groove 33 on the lateral wall of an installation section of thick bamboo 301, and meshing gear 32 can wear to establish scarce groove 33 and ring tooth 31 and mesh mutually to drive meshing gear 32 through adjusting motor 34 and rotate, can be in order to drive a rotation section of thick bamboo 302 and rotate.

Referring to fig. 2 and 3, in order to drive the standby frame 304 or the material containing frame 1 to slide in the connection box 303, vertical plates 22 are fixed on the upper surface and the lower surface of the connection box 303, two vertical plates 22 are fixed on the upper side and the lower side of the connection box 303, the vertical plates 22 are parallel to each other, and the length direction of the vertical plates 22 is parallel to the sliding direction of the standby frame 304. The power source 5 comprises power gears 51 rotatably connected to opposite sides of the vertical plates 22, and the power gears 51 between two opposite vertical plates 22 are in one-to-one correspondence. Fluting 23 has all been seted up to the position that the surface of connecting box 303 corresponds power gear 51, and power gear 51 can wear to establish fluting 23 and have the part and extend inside connecting box 303. The power source 5 further comprises racks 52 arranged on two sides of the standby frame 304 and the material containing frame 1, when the material containing frame 1 slides into the connecting box 303 from one end of the connecting box 303, the racks 52 can be meshed with the power gear 51, so that the material containing frame 1 or the standby frame 304 can be driven to slide through the rotation of the power gear 51.

Referring to fig. 3, in order to drive the power gears 51 on the same vertical plate 22 to rotate simultaneously, the circular wheels 24 are respectively rotated on the sides of the vertical plate 22 away from the power gears 51, and the circular wheels 24 correspond to the power gears 51 one by one. The circular wheel 24 is coaxially fixed with a protruding shaft 26, the protruding shaft 26 is rotatably connected to the vertical plate 22 through a bearing and the like, and one end of the protruding shaft 26 is fixedly connected to the power gear 51, so that the circular wheel 24 and the power gear 51 can rotate at the same time. A synchronous belt 25 is connected between the circular wheels 24 on the same vertical plate 22, and under the action of the synchronous belt 25, one circular wheel 24 can rotate, and all the circular wheels 24 rotate synchronously. In order to improve the abutting effect between the synchronous belt 25 and the circular wheels 24, the vertical plate 22 can be rotatably provided with the pressing rollers 27, and two pressing rollers 27 are distributed between the adjacent circular wheels 24, so that the contact area between the synchronous belt 25 and the circular wheels 24 is improved. The power source 5 further comprises power motors 53 mounted on the outer wall of the connecting box 303, the power motors 53 correspond to the vertical plates 22 one by one, and an output shaft of each power motor 53 is connected with one power gear 51, so that all the round wheels 24 are driven to synchronously rotate, and all the power gears 51 are driven to rotate.

Referring to fig. 1 and 4, a frame 7 is further installed between the drying mechanism 2 and the turnover mechanism 3, a hollow cylinder 8 with a hollow interior is installed on the frame 7, and two ends of the hollow cylinder 8 are fixed on the inner wall of the frame 7. The length direction of the hollow cylinder 8 is perpendicular to the moving direction of the conveyor belt 2033, and the upper end of the hollow cylinder 8 is further provided with a notch 9, and the notch 9 extends along the length direction of the hollow cylinder 8. The hollow cylinder 8 is also rotatably connected with a rotating rod 10, two ends of the rotating rod 10 are rotatably connected to the side wall of the rack 7, and the axial direction of the rotating rod 10 is parallel to the length direction of the hollow cylinder 8. A convex column 16 is fixed on one side wall of the frame 7 which is far away from the frame, and the rotating rod 10 can rotate on the convex column 16 in a bearing mode and the like. The outer wall of the rotating rod 10 is coaxially fixed with an installation block 11, and the rotating rod 10 can drive the installation block 11 to rotate synchronously when rotating. In this embodiment, two mounting blocks 11 are fixed, and when the material containing frame 1 passes through the rack 7, the two mounting blocks 11 are located at two sides of the dovetail strip 61. In order not to affect the sliding of the standby frame 304 or the material containing frame 1, the hollow cylinder 8 is provided with a hollow 35 for the motion of the dovetail strip 61.

Referring to fig. 4 and 5, the cross section of the mounting block 11 is a circular structure, the side wall of the mounting block 11 is slidably connected with a plurality of rapping rods 12, and the plurality of rapping rods 12 are uniformly arranged along the circumferential direction of the mounting block 11. The side wall of the mounting block 11 is provided with a sliding groove 14, the sliding groove 14 extends along the radial direction of the rapping rod 12, the rapping rod 12 slides in the sliding groove 14, and the end of the rapping rod 12 is an arc-shaped mechanism. The sliding groove 14 is internally provided with a first spring 13, one end of the first spring 13 is connected to the bottom surface of the sliding groove 14, and the other end of the first spring 13 is connected to the end surface of the striking rod 12. The hollow cylinder 8 comprises a positioning portion 82 and a contact portion 81, the contact portion 81 is of a semicircular structure, the positioning portion 82 is of an arc structure, and the positioning portion 82 is located on one side close to the drying mechanism 2. The tendency of the tapping rod 12 to slide away from the mounting block 11 can be driven by the first spring 13. When the mounting block 11 rotates towards the yielding part 82 and rotates to the position of the notch 9, the knocking rod 12 can have a part extending out of the surface of the notch 9, when the mounting block 11 continues to rotate, the end of the knocking rod 12 can abut against the inner wall of the yielding part 82, so that the knocking rod 12 is pressed and contained in the sliding groove 14, and when the mounting block 11 continues to rotate and moves to the position of the notch 9 again, the first spring 13 can drive the knocking rod 12 to pop out. When the material containing frame 1 or the standby frame 304 moves towards the drying mechanism 2, the knocking rod 12 can knock on the bottom surface thereof, so that vibration is generated, and the raw materials are distributed in the material containing frame 1 more uniformly. And the upper end of the position-letting part 82 is provided with a guide roller 21 in a rotating way, so that the material containing frame 1 can slide more conveniently.

Referring to fig. 4 and 5, in order to rotate the rotary bar 10, a link 15 is provided between the rotary bar 10 and the adjacent rotary roller 2032. The two ends of the rotating rod 10 are provided with parts extending out of the end surfaces of the convex columns 16. The linkage member 15 includes a synchronizing wheel 151 coaxially and fixedly connected to outer walls of two ends of the rotating roller 2032 close to the frame 7, and further includes a driving wheel 152 rotatably connected to an outer wall of the convex column 16, and a linkage belt 153 is connected between the synchronizing wheel 151 and the driving wheel 152, so that the rotating roller 2032 rotates to drive the driving wheel 152 to rotate.

Referring to fig. 4 and 5, the driving wheel 152 is provided with a cavity having a circular cross section. The inner wall of the cavity is uniformly fixed with a plurality of limiting blocks 17, and the limiting blocks 17 are uniformly arranged along the circumferential direction of the driving wheel 152. The stopper 17 includes an abutting surface 171 and an inclined surface 172, the abutting surface 171 extends in the radial direction of the driving wheel 152, one end of the inclined surface 172 is connected to one end of the abutting surface 171 near the center of the driving wheel 152, and the other end of the inclined surface 172 is connected to the inner wall of the driving wheel 152. The outer wall of one end of the rotating rod 10 extending out of the convex column 16 is provided with a mounting groove 18, a second spring 20 is mounted in the mounting groove 18, a touch rod 19 is further connected in the mounting groove 18 in a sliding manner, and the sliding direction of the touch rod 19 slides along the radial direction of the rotating rod 10. The tendency of the counter-bar 19 to slide out of the mounting slot 18 can be provided by the second spring 20.

Referring to fig. 1 and 4, when the conveyor belt 2033 moves in the direction of the turnover mechanism 3, the driving wheel 152 also rotates in the direction of the turnover mechanism 3, and the side wall of the striking rod 12 can abut against the side wall of the upper end of the abutting portion 81, so that when the driving wheel 152 rotates, the stopper 17 rotates synchronously, and the end of the abutting rod 19 abuts against the inclined surface 172 and is compressed in the mounting groove 18. When the conveying belt 2033 moves towards the drying mechanism 2, the abutting surface 171 can abut against the side wall of the abutting rod 19, so as to drive the rotating rod 10 to rotate, so that the mounting block 11 rotates, and the striking rod 12 can be continuously ejected from the notch 9 and compressed back into the sliding groove 14 at the receding portion 82.

The application principle of the drying device for slipper production in the embodiment of the application is as follows: contain material frame 1 after stoving an end time in stoving case 201, drive through conveyer belt 2033 and contain material frame 1 to tilting mechanism 3's motion, can drive under power supply 5's effect and contain material frame 1 and enter into connecting box 303, until containing material frame 1 is located reserve frame 304 under, then rotate 180 degrees through driving piece 4 drive rotary drum 302, the material in containing material frame 1 can be poured into and be arranged in reserve frame 304, then drive reserve frame 304 through power supply 5 and move to stoving mechanism 2, and conveyer belt 2033 reversal, carry reserve frame 304 to stoving case 201 in. The rapping bar 12 can continuously rap the bottom surface of the standby frame 304 as the standby frame 304 passes through the rack 7, thereby making the distribution of the raw material more uniform.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a drying device is used in slippers production which characterized in that: comprises a drying mechanism (2) and a turnover mechanism (3); the drying mechanism (2) comprises a drying box (201), a heat supply assembly (202) communicated with an inner cavity of the drying box (201) is arranged at the upper end of the drying box (201), the drying mechanism (2) further comprises a conveying assembly (203), the conveying assembly (203) comprises a frame (2031) and rotating rollers (2032) rotating at two ends of the frame (2031), a conveying belt (2033) penetrating through two ends of the drying box (201) is arranged between the rotating rollers (2032), and a material containing frame (1) is placed on the conveying belt (2033);

the turnover mechanism (3) comprises an installation cylinder (301) arranged at one end of the drying mechanism (2), a rotating cylinder (302) is rotatably arranged in the mounting cylinder (301) along the circumferential direction of the mounting cylinder (301), the outer wall of the mounting cylinder (301) is provided with a driving piece (4) for driving the rotating cylinder (302) to rotate, a connecting box (303) with a hollow inner part is arranged in the rotating cylinder (302), the opening of the connecting box (303) faces the drying mechanism (2), a spare frame (304) is arranged in the connecting box (303) in a sliding way, the sliding direction of the spare frame (304) is parallel to the moving direction of the conveying belt (2033), a space for the material containing frame (1) to slide in horizontally is reserved between the standby frame (304) and the connecting box (303), the connecting box (303) is provided with a power source (5) for driving the material containing frame (1) and the standby frame (304) to slide; guide structures (6) are arranged between the material containing frame (1) and the connecting box (303), and between the standby frame (304) and the connecting box (303) for limiting the separation of the inner walls of the material containing frame (1) and the connecting box (303) and the standby frame (304) and the connecting box (303) when the rotating barrel (302) rotates.

2. The drying device for slipper production according to claim 1, wherein: a rack (7) is further arranged between the drying mechanism (2) and the turnover mechanism (3), a hollow cylinder (8) is arranged on the rack (7), a gap (9) is formed in the upper end of the hollow cylinder (8), a rotating rod (10) is rotatably arranged in the hollow cylinder (8), the axis direction of the rotating rod (10) is perpendicular to the moving direction of the conveying belt (2033), mounting blocks (11) are coaxially arranged on the side wall of the rotating rod (10), the mounting blocks (11) are arranged at intervals along the length direction of the rotating rod (10), knocking rods (12) are slidably connected to the side wall of each mounting block (11), the knocking rods (12) slide along the radial direction of the mounting blocks (11), and the mounting blocks (11) are provided with first springs (13) for driving the knocking rods (12) to extend out of the gaps (9); the hollow cylinder (8) comprises a position yielding part (82) and a butting part (81), the position yielding part (82) is located on one side close to the drying mechanism (2), a gap is reserved between the position yielding part (82) and the side wall of the installation block (11), a linkage part (15) is arranged between the rotating rod (10) and the adjacent rotating roller (2032), the rotating rod cannot rotate when the conveying belt (2033) moves towards the turnover mechanism (3), and when the conveying belt (2033) moves towards the direction far away from the turnover mechanism (2033), the rotating rod (10) can rotate synchronously with the rotating roller (2032).

3. The drying device for slipper production as claimed in claim 2, wherein: the machine frame is characterized in that a convex column (16) is arranged on one side of the machine frame (7) which deviates from each other, the rotating rod (10) penetrates through the side wall of the machine frame (7) and is connected to the convex column (16) in a rotating mode, the two ends of the rotating rod (10) are provided with parts extending out of the end face of the convex column (16), the linkage piece (15) comprises a synchronizing wheel (151) coaxially arranged on the outer wall of the rotating roller (2032) and a driving wheel (152) rotatably arranged on the outer wall of the convex column (16), a linkage belt (153) is arranged between the driving wheel (152) and the synchronizing wheel (151), a cavity is formed in the driving wheel (152), limit blocks (17) are uniformly arranged on the inner wall of the cavity, each limit block (17) comprises a butt surface (171) extending along the radial direction of the driving wheel (152) and an inclined surface (172), one end of each inclined surface (172) is connected to one end of each butt surface (171) far away from the inner wall of the cavity, the other end of the inclined surface (172) is connected with the inner wall of the cavity; mounting groove (18) have been seted up to the tip of bull stick (10), sliding connection has in mounting groove (18) and supports feeler lever (19), be provided with second spring (20) in mounting groove (18), work as conveyer belt (2033) when moving to tilting mechanism (3), support feeler lever (19) can move on inclined plane (172).

4. The drying device for slipper production as claimed in claim 3, wherein: the upper end of the containing part (82) is rotatably provided with a guide roller (21).

5. The drying device for slipper production as claimed in claim 4, wherein: the upper side and the lower side of the connecting box (303) are provided with vertical plates (22), the upper side and the lower side of the connecting box (303) are provided with two vertical plates (22), the power source (5) comprises a power gear (51) which is rotatably connected to one side of the vertical plates (22) opposite to each other, the surface of the connecting box (303) is provided with a notch (23), the power gear (51) is provided with a part which penetrates through the notch (23) and extends into the connecting box (303), the power source (5) further comprises racks (52) which are arranged at two sides of the standby frame (304) and the material containing frame (1), the racks (52) can be meshed with the power gear (51), one side of the vertical plates (22) which deviates from each other is rotatably provided with round wheels (24), the round wheels (24) correspond to the power gears (51) one by one to one, the round wheels (24) are coaxially fixed with a convex shaft (26) and connected with the power gear (51) through the convex shaft (26), the vertical plate (22) is provided with a synchronous belt (25) which connects the round wheels (24), the power source (5) further comprises power motors (53) which are arranged on the surface of the connecting box (303), the power motors (53) correspond to the vertical plate (22) one by one, and output shafts of the power motors (53) are connected with one of the power gears (51).

6. The drying device for slipper production as recited in claim 5, wherein: guide structure (6) are including setting up in dovetail strip (61) of the bottom surface of material preparing frame and material containing frame (1), offer on connecting box (303) inner wall and be used for supplying gliding dovetail strip (62) of dovetail strip (61).

7. The drying device for slipper production as claimed in claim 6, wherein: two positioning rods (28) are arranged on the upper surface of the conveying belt (2033), the positioning rods (28) are parallel to each other, and the material containing frame (1) or the material preparing frame can be abutted between the two positioning rods (28).

8. The drying device for slipper production as recited in claim 7, wherein: the both ends outer wall of a rotation section of thick bamboo (302) is provided with ring protruding (29), installation section of thick bamboo (301) inner wall is provided with and is used for supplying ring protruding (29) pivoted rotating groove (30), driving piece (4) including coaxial set up in ring tooth (31) of a rotation section of thick bamboo (302) outer wall, driving piece (4) still including set up in adjusting motor (34) of an installation section of thick bamboo (301) lateral wall, be provided with meshing gear (32) on adjusting motor (34), scarce groove (33) have been seted up to the outer wall of an installation section of thick bamboo (301), meshing gear (32) pass scarce groove (33) and ring tooth (31) meshing.

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